Article ID Journal Published Year Pages File Type
1247691 TrAC Trends in Analytical Chemistry 2016 13 Pages PDF
Abstract
In this overview, we offer an insight into the analytical potential of different nanomaterials for chemical speciation of trace elements.
Keywords
RSDMWCNTsDMACPECNTSERS4-MercaptopyridineAASAFSSPELSPRTXRFICP-AESSDMEETAASMeHgTBTTributyltinMMANanosorbentsFAASAPDCETVIEPMMTMSPSFICVGSWCNTsEthylmercuryICPMSTELCDTADDTCMEKCMESNAFluorescence resonance-energy transferDMSPEGC-MSMNPsLab-on-valveAmmonium pyrrolidinedithiocarbamateEDTAethylendiaminetetraacetic acidSolid-phase extractionCloud point extractionAAS, atomic absorption spectrometryUltravioletCapillary electrophoresisFRETrelative standard deviationGrapheme oxideCold vapourApplicationsElectrothermal vaporizationFlow injectionSequential injectionVapour generationChemical vapor generationhydride generationmpysingle-drop microextractionLOD یا Limit of detectionSeMetDimethylarsinatediethyldithiocarbamateLocalized surface plasmon resonanceSodium diethyldithiocarbamateSurface enhanced Raman spectroscopySelenomethionineselenocystineChemical speciationinductively coupled plasma-atomic emission spectrometryatomic fluorescence spectrometryinductively coupled plasma mass spectrometryTrace elementsenrichment factorPolypropylene hollow fiberPhenylmercuryLOVLDHPANMicrowavesMethylmercurylimit of detectionMonomethylarsonateNanosized materialsNanoparticleMagnetic nanoparticlesSingle-walled Carbon NanotubesMulti-walled carbon nanotubesCarbon nanotubeNanocatalystsIsoelectric pointCarbon dotquantum dotChemiluminescenceLayered double hydroxideliquid chromatographyhigh performance liquid chromatographyHPLCIon chromatographyTotal reflection X-ray fluorescenceGraphene
Related Topics
Physical Sciences and Engineering Chemistry Analytical Chemistry
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Nanoparticle-assisted chemical speciation of trace elements
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